Robust Observer-Based Controller Design for Uncertain Discrete-time Systems in Finite Frequency Domain

机译：有限频域不确定离散系统的基于观测器的鲁棒控制器设计

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In this paper, the problem of finite frequency observer-based controller design for uncertain linear discrete-time systems is investigated with the use of the Generalized Kalman Yakobovich Popov (GKYP) lemma. A new condition guaranteeing the finite frequency controller design for discrete-time systems is derived, in terms of Linear Matrix Inequalities (LMIs). This study reduces the conservatism of the existing full-frequency design and includes it as a special case. In the end, an example is provided, to show the effectiveness of the derived results.

机译：本文利用广义卡尔曼·雅科波维奇·波波夫（GKYP）引理研究了不确定线性离散时间系统基于有限频率观测器的控制器设计问题。根据线性矩阵不等式（LMI），得出了保证离散时间系统有限频率控制器设计的新条件。这项研究降低了现有全频设计的保守性，并将其作为特殊情况包括在内。最后，提供了一个示例，以显示得出的结果的有效性。

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《International Conference on Multimedia Computing and Systems》|2018年|1-6|共6页
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Ismail Er Rachid; Redouane Chaibi; Badreddine El Haiek; El Houssaine Tissir; Abdelaziz Hmamed;
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Symmetric matrices; Observers; Frequency control; Linear matrix inequalities; Frequency-domain analysis; Closed loop systems; Linear systems;

机译：对称矩阵;观测器;频率控制;线性矩阵不等式;频域分析;闭环系统;线性系统;

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3. Interval observer-based fault detection in finite frequency domain for discrete-time fuzzy systems [J] . Zhang Zhi-Hui, Yang Guang-Hong Neurocomputing . 2018,第OCTa8期

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4. Robust Observer-Based Controller Design for Uncertain Discrete-time Systems in Finite Frequency Domain [C] . Ismail Er Rachid, Redouane Chaibi, Badreddine El Haiek, International Conference on Multimedia Computing and Systems . 2018

机译：有限频域不确定离散时间系统的强大的基于观察者的控制器设计
5. Reduced-order robust adaptive controller design and convergence analysis for uncertain SISO linear systems with noisy output measurements . [D] . Zhao, Qingrong. 2007

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7. Observer-Based Robust Controller Design for Nonlinear Fractional-Order Uncertain Systems via LMI [O] . Jing Qiu, Yude Ji 2017

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Robust Observer-Based Controller Design for Uncertain Discrete-time Systems in Finite Frequency Domain

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